notmuch/test/test-lib.sh

1368 lines
35 KiB
Bash
Raw Normal View History

#
# Copyright (c) 2005 Junio C Hamano
# Copyright (c) 2010 Notmuch Developers
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see http://www.gnu.org/licenses/ .
if [ ${BASH_VERSINFO[0]} -lt 4 ]; then
echo "Error: The notmuch test suite requires a bash version >= 4.0"
echo "due to use of associative arrays within the test suite."
echo "Please try again with a newer bash (or help us fix the"
echo "test suite to be more portable). Thanks."
exit 1
fi
# Make sure echo builtin does not expand backslash-escape sequences by default.
shopt -u xpg_echo
this_test=${0##*/}
this_test=${this_test%.sh}
this_test_bare=${this_test#T[0-9][0-9][0-9]-}
# if --tee was passed, write the output not only to the terminal, but
# additionally to the file test-results/$BASENAME.out, too.
case "$GIT_TEST_TEE_STARTED, $* " in
done,*)
# do not redirect again
;;
*' --tee '*|*' --va'*)
mkdir -p test-results
BASE=test-results/$this_test
(GIT_TEST_TEE_STARTED=done ${SHELL-sh} "$0" "$@" 2>&1;
echo $? > $BASE.exit) | tee $BASE.out
test "$(cat $BASE.exit)" = 0
exit
;;
esac
# Save STDOUT to fd 6 and STDERR to fd 7.
exec 6>&1 7>&2
# Make xtrace debugging (when used) use redirected STDERR, with verbose lead:
BASH_XTRACEFD=7
export PS4='+(${BASH_SOURCE}:${LINENO}): ${FUNCNAME[0]:+${FUNCNAME[0]}(): }'
# Keep the original TERM for say_color and test_emacs
ORIGINAL_TERM=$TERM
# dtach(1) provides more capable terminal environment to anything
# that requires more than dumb terminal...
[ x"${TERM:-dumb}" = xdumb ] && DTACH_TERM=vt100 || DTACH_TERM=$TERM
# For repeatability, reset the environment to known value.
LANG=C
LC_ALL=C
PAGER=cat
TZ=UTC
TERM=dumb
export LANG LC_ALL PAGER TERM TZ
GIT_TEST_CMP=${GIT_TEST_CMP:-diff -u}
test: Make the emacsclient binary user-configurable And require that if TEST_EMACS is specified, so is TEST_EMACSCLIENT. Previously, the test framework always used "emacsclient", even if the Emacs in use was overridden by TEST_EMACS. This causes problems if both Emacs 23 and Emacs 24 are installed, the Emacs 23 emacsclient is the system default, but TEST_EMACS is set to emacs24. Specifically, with an Emacs 24 server and an Emacs 23 client, emacs tests that run very quickly may produce no output from emacsclient, causing the test to fail. The Emacs server uses a very simple line-oriented protocol in which the client sends a request to evaluate an expression and the server sends a request to print the result of evaluation. Prior to Emacs bzr commit 107565 on March 11th, 2012 (released in Emacs 24.1), if multiple commands were sent to the emacsclient between when it sent the evaluation command and when it entered its receive loop, it would only process the first response command, ignoring the rest of the received buffer. This wasn't a problem with the Emacs 23 server because it sent only the command to print the evaluation result. However, the Emacs 24 server first sends an unprompted command specifying the PID of the Emacs server, then processes the evaluation request, then sends the command to print the result. If the evaluation is fast enough, it can send both of these commands before emacsclient enters the receive loop. Hence, if an Emacs 24 server is used with an Emacs 23 emacsclient, it may miss the response printing command, ultimately causing intermittent notmuch test failures.
2012-11-28 04:24:59 +01:00
if [[ ( -n "$TEST_EMACS" && -z "$TEST_EMACSCLIENT" ) || \
( -z "$TEST_EMACS" && -n "$TEST_EMACSCLIENT" ) ]]; then
echo "error: must specify both or neither of TEST_EMACS and TEST_EMACSCLIENT" >&2
exit 1
fi
TEST_EMACS=${TEST_EMACS:-${EMACS:-emacs}}
test: Make the emacsclient binary user-configurable And require that if TEST_EMACS is specified, so is TEST_EMACSCLIENT. Previously, the test framework always used "emacsclient", even if the Emacs in use was overridden by TEST_EMACS. This causes problems if both Emacs 23 and Emacs 24 are installed, the Emacs 23 emacsclient is the system default, but TEST_EMACS is set to emacs24. Specifically, with an Emacs 24 server and an Emacs 23 client, emacs tests that run very quickly may produce no output from emacsclient, causing the test to fail. The Emacs server uses a very simple line-oriented protocol in which the client sends a request to evaluate an expression and the server sends a request to print the result of evaluation. Prior to Emacs bzr commit 107565 on March 11th, 2012 (released in Emacs 24.1), if multiple commands were sent to the emacsclient between when it sent the evaluation command and when it entered its receive loop, it would only process the first response command, ignoring the rest of the received buffer. This wasn't a problem with the Emacs 23 server because it sent only the command to print the evaluation result. However, the Emacs 24 server first sends an unprompted command specifying the PID of the Emacs server, then processes the evaluation request, then sends the command to print the result. If the evaluation is fast enough, it can send both of these commands before emacsclient enters the receive loop. Hence, if an Emacs 24 server is used with an Emacs 23 emacsclient, it may miss the response printing command, ultimately causing intermittent notmuch test failures.
2012-11-28 04:24:59 +01:00
TEST_EMACSCLIENT=${TEST_EMACSCLIENT:-emacsclient}
TEST_CC=${TEST_CC:-cc}
TEST_CFLAGS=${TEST_CFLAGS:-"-g -O0"}
# Protect ourselves from common misconfiguration to export
# CDPATH into the environment
unset CDPATH
unset GREP_OPTIONS
# For emacsclient
unset ALTERNATE_EDITOR
# Convenience
#
# A regexp to match 5 and 40 hexdigits
_x05='[0-9a-f][0-9a-f][0-9a-f][0-9a-f][0-9a-f]'
_x40="$_x05$_x05$_x05$_x05$_x05$_x05$_x05$_x05"
_x04='[0-9a-f][0-9a-f][0-9a-f][0-9a-f]'
_x32="$_x04$_x04$_x04$_x04$_x04$_x04$_x04$_x04"
# Each test should start with something like this, after copyright notices:
#
# test_description='Description of this test...
# This test checks if command xyzzy does the right thing...
# '
# . ./test-lib.sh || exit 1
[ "x$ORIGINAL_TERM" != "xdumb" ] && (
TERM=$ORIGINAL_TERM &&
export TERM &&
[ -t 1 ] &&
tput bold >/dev/null 2>&1 &&
tput setaf 1 >/dev/null 2>&1 &&
tput sgr0 >/dev/null 2>&1
) &&
color=t
while test "$#" -ne 0
do
case "$1" in
-d|--d|--de|--deb|--debu|--debug)
debug=t; shift ;;
-i|--i|--im|--imm|--imme|--immed|--immedi|--immedia|--immediat|--immediate)
immediate=t; shift ;;
-l|--l|--lo|--lon|--long|--long-|--long-t|--long-te|--long-tes|--long-test|--long-tests)
GIT_TEST_LONG=t; export GIT_TEST_LONG; shift ;;
-h|--h|--he|--hel|--help)
help=t; shift ;;
-v|--v|--ve|--ver|--verb|--verbo|--verbos|--verbose)
verbose=t; shift ;;
-q|--q|--qu|--qui|--quie|--quiet)
quiet=t; shift ;;
--with-dashes)
with_dashes=t; shift ;;
--no-color)
color=; shift ;;
--no-python)
# noop now...
shift ;;
--va|--val|--valg|--valgr|--valgri|--valgrin|--valgrind)
valgrind=t; verbose=t; shift ;;
--tee)
shift ;; # was handled already
--root=*)
root=$(expr "z$1" : 'z[^=]*=\(.*\)')
shift ;;
*)
echo "error: unknown test option '$1'" >&2; exit 1 ;;
esac
done
if test -n "$debug"; then
print_subtest () {
printf " %-4s" "[$((test_count - 1))]"
}
else
print_subtest () {
true
}
fi
if test -n "$color"; then
say_color () {
(
TERM=$ORIGINAL_TERM
export TERM
case "$1" in
error) tput bold; tput setaf 1;; # bold red
skip) tput bold; tput setaf 2;; # bold green
pass) tput setaf 2;; # green
info) tput setaf 3;; # brown
*) test -n "$quiet" && return;;
esac
shift
printf " "
printf "$@"
tput sgr0
print_subtest
)
}
else
say_color() {
test -z "$1" && test -n "$quiet" && return
shift
printf " "
printf "$@"
print_subtest
}
fi
error () {
say_color error "error: $*\n"
GIT_EXIT_OK=t
exit 1
}
say () {
say_color info "$*"
}
test "${test_description}" != "" ||
error "Test script did not set test_description."
if test "$help" = "t"
then
echo "Tests ${test_description}"
exit 0
fi
test_description_printed=
print_test_description ()
{
test -z "$test_description_printed" || return 0
echo
echo $this_test: "Testing ${test_description}"
test_description_printed=1
}
if [ -z "$NOTMUCH_TEST_QUIET" ]
then
print_test_description
fi
test_failure=0
test_count=0
test_fixed=0
test_broken=0
test_success=0
_die_common () {
code=$?
trap - EXIT
set +ex
rm -rf "$TEST_TMPDIR"
}
die () {
_die_common
if test -n "$GIT_EXIT_OK"
then
exit $code
else
exec >&6
say_color error '%-6s' FATAL
echo " $test_subtest_name"
echo
echo "Unexpected exit while executing $0. Exit code $code."
exit 1
fi
}
die_signal () {
_die_common
echo >&6 "FATAL: $0: interrupted by signal" $((code - 128))
exit $code
}
GIT_EXIT_OK=
# Note: TEST_TMPDIR *NOT* exported!
TEST_TMPDIR=$(mktemp -d "${TMPDIR:-/tmp}/notmuch-test-$$.XXXXXX")
trap 'die' EXIT
trap 'die_signal' HUP INT TERM
test_decode_color () {
sed -e 's/.\[1m/<WHITE>/g' \
-e 's/.\[31m/<RED>/g' \
-e 's/.\[32m/<GREEN>/g' \
-e 's/.\[33m/<YELLOW>/g' \
-e 's/.\[34m/<BLUE>/g' \
-e 's/.\[35m/<MAGENTA>/g' \
-e 's/.\[36m/<CYAN>/g' \
-e 's/.\[m/<RESET>/g'
}
q_to_nul () {
perl -pe 'y/Q/\000/'
}
q_to_cr () {
tr Q '\015'
}
append_cr () {
sed -e 's/$/Q/' | tr Q '\015'
}
remove_cr () {
tr '\015' Q | sed -e 's/Q$//'
}
# Generate a new message in the mail directory, with a unique message
# ID and subject. The message is not added to the index.
#
# After this function returns, the filename of the generated message
# is available as $gen_msg_filename and the message ID is available as
# $gen_msg_id .
#
# This function supports named parameters with the bash syntax for
# assigning a value to an associative array ([name]=value). The
# supported parameters are:
#
# [dir]=directory/of/choice
#
# Generate the message in directory 'directory/of/choice' within
# the mail store. The directory will be created if necessary.
#
# [filename]=name
#
# Store the message in file 'name'. The default is to store it
# in 'msg-<count>', where <count> is three-digit number of the
# message.
#
# [body]=text
#
# Text to use as the body of the email message
#
# '[from]="Some User <user@example.com>"'
# '[to]="Some User <user@example.com>"'
# '[subject]="Subject of email message"'
# '[date]="RFC 822 Date"'
#
# Values for email headers. If not provided, default values will
# be generated instead.
#
# '[cc]="Some User <user@example.com>"'
# [reply-to]=some-address
# [in-reply-to]=<message-id>
# [references]=<message-id>
# [content-type]=content-type-specification
# '[header]=full header line, including keyword'
#
# Additional values for email headers. If these are not provided
# then the relevant headers will simply not appear in the
# message.
#
# '[id]=message-id'
#
# Controls the message-id of the created message.
gen_msg_cnt=0
gen_msg_filename=""
gen_msg_id=""
generate_message ()
{
# This is our (bash-specific) magic for doing named parameters
local -A template="($@)"
local additional_headers
gen_msg_cnt=$((gen_msg_cnt + 1))
if [ -z "${template[filename]}" ]; then
gen_msg_name="msg-$(printf "%03d" $gen_msg_cnt)"
else
gen_msg_name=${template[filename]}
fi
if [ -z "${template[id]}" ]; then
gen_msg_id="${gen_msg_name%:2,*}@notmuch-test-suite"
else
gen_msg_id="${template[id]}"
fi
if [ -z "${template[dir]}" ]; then
gen_msg_filename="${MAIL_DIR}/$gen_msg_name"
else
gen_msg_filename="${MAIL_DIR}/${template[dir]}/$gen_msg_name"
mkdir -p "$(dirname "$gen_msg_filename")"
fi
if [ -z "${template[body]}" ]; then
template[body]="This is just a test message (#${gen_msg_cnt})"
fi
if [ -z "${template[from]}" ]; then
template[from]="Notmuch Test Suite <test_suite@notmuchmail.org>"
fi
if [ -z "${template[to]}" ]; then
template[to]="Notmuch Test Suite <test_suite@notmuchmail.org>"
fi
if [ -z "${template[subject]}" ]; then
if [ -n "$test_subtest_name" ]; then
template[subject]="$test_subtest_name"
else
template[subject]="Test message #${gen_msg_cnt}"
fi
elif [ "${template[subject]}" = "@FORCE_EMPTY" ]; then
template[subject]=""
fi
if [ -z "${template[date]}" ]; then
# we use decreasing timestamps here for historical reasons;
# the existing test suite when we converted to unique timestamps just
# happened to have signicantly fewer failures with that choice.
local date_secs=$((978709437 - gen_msg_cnt))
# printf %(..)T is bash 4.2+ feature. use perl fallback if needed...
TZ=UTC printf -v template[date] "%(%a, %d %b %Y %T %z)T" $date_secs 2>/dev/null ||
template[date]=`perl -le 'use POSIX "strftime";
@time = gmtime '"$date_secs"';
print strftime "%a, %d %b %Y %T +0000", @time'`
fi
additional_headers=""
if [ ! -z "${template[header]}" ]; then
additional_headers="${template[header]}
${additional_headers}"
fi
if [ ! -z "${template[reply-to]}" ]; then
additional_headers="Reply-To: ${template[reply-to]}
${additional_headers}"
fi
if [ ! -z "${template[in-reply-to]}" ]; then
additional_headers="In-Reply-To: ${template[in-reply-to]}
${additional_headers}"
fi
if [ ! -z "${template[cc]}" ]; then
additional_headers="Cc: ${template[cc]}
${additional_headers}"
fi
if [ ! -z "${template[bcc]}" ]; then
additional_headers="Bcc: ${template[bcc]}
${additional_headers}"
fi
if [ ! -z "${template[references]}" ]; then
additional_headers="References: ${template[references]}
${additional_headers}"
fi
if [ ! -z "${template[content-type]}" ]; then
additional_headers="Content-Type: ${template[content-type]}
${additional_headers}"
fi
if [ ! -z "${template[content-transfer-encoding]}" ]; then
additional_headers="Content-Transfer-Encoding: ${template[content-transfer-encoding]}
${additional_headers}"
fi
# Note that in the way we're setting it above and using it below,
# `additional_headers' will also serve as the header / body separator
# (empty line in between).
cat <<EOF >"$gen_msg_filename"
From: ${template[from]}
To: ${template[to]}
Message-Id: <${gen_msg_id}>
Subject: ${template[subject]}
Date: ${template[date]}
${additional_headers}
${template[body]}
EOF
}
# Generate a new message and add it to the database.
#
# All of the arguments and return values supported by generate_message
# are also supported here, so see that function for details.
add_message ()
{
generate_message "$@" &&
notmuch new > /dev/null
}
# Deliver a message with emacs and add it to the database
#
# Uses emacs to generate and deliver a message to the mail store.
# Accepts arbitrary extra emacs/elisp functions to modify the message
# before sending, which is useful to doing things like attaching files
# to the message and encrypting/signing.
emacs_deliver_message ()
{
local subject="$1"
local body="$2"
shift 2
# before we can send a message, we have to prepare the FCC maildir
mkdir -p "$MAIL_DIR"/sent/{cur,new,tmp}
# eval'ing smtp-dummy --background will set smtp_dummy_pid
smtp_dummy_pid=
eval `$TEST_DIRECTORY/smtp-dummy --background sent_message`
test -n "$smtp_dummy_pid" || return 1
test_emacs \
"(let ((message-send-mail-function 'message-smtpmail-send-it)
(mail-host-address \"example.com\")
(smtpmail-smtp-server \"localhost\")
(smtpmail-smtp-service \"25025\"))
(notmuch-mua-mail)
(message-goto-to)
(insert \"test_suite@notmuchmail.org\nDate: 01 Jan 2000 12:00:00 -0000\")
(message-goto-subject)
(insert \"${subject}\")
(message-goto-body)
(insert \"${body}\")
$@
(notmuch-mua-send-and-exit))"
# In case message was sent properly, client waits for confirmation
# before exiting and resuming control here; therefore making sure
# that server exits by sending (KILL) signal to it is safe.
kill -9 $smtp_dummy_pid
notmuch new >/dev/null
}
# Pretend to deliver a message with emacs. Really save it to a file
# and add it to the database
#
# Uses emacs to generate and deliver a message to the mail store.
# Accepts arbitrary extra emacs/elisp functions to modify the message
# before sending, which is useful to doing things like attaching files
# to the message and encrypting/signing.
emacs_fcc_message ()
{
local subject="$1"
local body="$2"
shift 2
# before we can send a message, we have to prepare the FCC maildir
mkdir -p "$MAIL_DIR"/sent/{cur,new,tmp}
test_emacs \
"(let ((message-send-mail-function (lambda () t))
(mail-host-address \"example.com\"))
(notmuch-mua-mail)
(message-goto-to)
(insert \"test_suite@notmuchmail.org\nDate: 01 Jan 2000 12:00:00 -0000\")
(message-goto-subject)
(insert \"${subject}\")
(message-goto-body)
(insert \"${body}\")
$@
(notmuch-mua-send-and-exit))" || return 1
notmuch new >/dev/null
}
# Generate a corpus of email and add it to the database.
#
# This corpus is fixed, (it happens to be 50 messages from early in
# the history of the notmuch mailing list), which allows for reliably
# testing commands that need to operate on a not-totally-trivial
# number of messages.
add_email_corpus ()
{
rm -rf ${MAIL_DIR}
if [ -d $TEST_DIRECTORY/corpus.mail ]; then
cp -a $TEST_DIRECTORY/corpus.mail ${MAIL_DIR}
else
cp -a $TEST_DIRECTORY/corpus ${MAIL_DIR}
notmuch new >/dev/null
cp -a ${MAIL_DIR} $TEST_DIRECTORY/corpus.mail
fi
}
test_begin_subtest ()
{
if [ -n "$inside_subtest" ]; then
exec 1>&6 2>&7 # Restore stdout and stderr
error "bug in test script: Missing test_expect_equal in ${BASH_SOURCE[1]}:${BASH_LINENO[0]}"
fi
test_subtest_name="$1"
test_reset_state_
# Redirect test output to the previously prepared file descriptors
# 3 and 4 (see below)
if test "$verbose" != "t"; then exec 4>test.output 3>&4; fi
exec >&3 2>&4
inside_subtest=t
}
# Pass test if two arguments match
#
# Note: Unlike all other test_expect_* functions, this function does
# not accept a test name. Instead, the caller should call
# test_begin_subtest before calling this function in order to set the
# name.
test_expect_equal ()
{
exec 1>&6 2>&7 # Restore stdout and stderr
inside_subtest=
test "$#" = 3 && { prereq=$1; shift; } || prereq=
test "$#" = 2 ||
error "bug in the test script: not 2 or 3 parameters to test_expect_equal"
output="$1"
expected="$2"
if ! test_skip "$test_subtest_name"
then
if [ "$output" = "$expected" ]; then
test_ok_
else
testname=$this_test.$test_count
echo "$expected" > $testname.expected
echo "$output" > $testname.output
test_failure_ "$(diff -u $testname.expected $testname.output)"
fi
fi
}
# Like test_expect_equal, but takes two filenames.
test_expect_equal_file ()
{
exec 1>&6 2>&7 # Restore stdout and stderr
inside_subtest=
test "$#" = 3 && { prereq=$1; shift; } || prereq=
test "$#" = 2 ||
error "bug in the test script: not 2 or 3 parameters to test_expect_equal"
file1="$1"
basename1=`basename "$file1"`
file2="$2"
basename2=`basename "$file2"`
if ! test_skip "$test_subtest_name"
then
if diff -q "$file1" "$file2" >/dev/null ; then
test_ok_
else
testname=$this_test.$test_count
cp "$file1" "$testname.$basename1"
cp "$file2" "$testname.$basename2"
test_failure_ "$(diff -u "$testname.$basename1" "$testname.$basename2")"
fi
fi
}
# Like test_expect_equal, but arguments are JSON expressions to be
# canonicalized before diff'ing. If an argument cannot be parsed, it
# is used unchanged so that there's something to diff against.
test_expect_equal_json () {
# The test suite forces LC_ALL=C, but this causes Python 3 to
# decode stdin as ASCII. We need to read JSON in UTF-8, so
# override Python's stdio encoding defaults.
output=$(echo "$1" | PYTHONIOENCODING=utf-8 $NOTMUCH_PYTHON -mjson.tool \
|| echo "$1")
expected=$(echo "$2" | PYTHONIOENCODING=utf-8 $NOTMUCH_PYTHON -mjson.tool \
|| echo "$2")
shift 2
test_expect_equal "$output" "$expected" "$@"
}
# Sort the top-level list of JSON data from stdin.
test_sort_json () {
PYTHONIOENCODING=utf-8 python -c \
"import sys, json; json.dump(sorted(json.load(sys.stdin)),sys.stdout)"
}
test_emacs_expect_t () {
test "$#" = 2 && { prereq=$1; shift; } || prereq=
test "$#" = 1 ||
error "bug in the test script: not 1 or 2 parameters to test_emacs_expect_t"
# Run the test.
if ! test_skip "$test_subtest_name"
then
test_emacs "(notmuch-test-run $1)" >/dev/null
# Restore state after the test.
exec 1>&6 2>&7 # Restore stdout and stderr
inside_subtest=
# Report success/failure.
result=$(cat OUTPUT)
if [ "$result" = t ]
then
test_ok_
else
test_failure_ "${result}"
fi
else
# Restore state after the (non) test.
exec 1>&6 2>&7 # Restore stdout and stderr
inside_subtest=
fi
}
NOTMUCH_NEW ()
{
notmuch new "${@}" | grep -v -E -e '^Processed [0-9]*( total)? file|Found [0-9]* total file'
}
NOTMUCH_DUMP_TAGS ()
{
# this relies on the default format being batch-tag, otherwise some tests will break
notmuch dump --include=tags "${@}" | sed '/^#/d' | sort
}
notmuch_search_sanitize ()
{
perl -pe 's/("?thread"?: ?)("?)................("?)/\1\2XXX\3/'
}
notmuch_search_files_sanitize ()
{
notmuch_dir_sanitize
}
notmuch_dir_sanitize ()
{
sed -e "s,$MAIL_DIR,MAIL_DIR," -e "s,${PWD},CWD,g" "$@"
}
NOTMUCH_SHOW_FILENAME_SQUELCH='s,filename:.*/mail,filename:/XXX/mail,'
notmuch_show_sanitize ()
{
sed -e "$NOTMUCH_SHOW_FILENAME_SQUELCH"
}
notmuch_show_sanitize_all ()
{
sed \
-e 's| filename:.*| filename:XXXXX|' \
-e 's| id:[^ ]* | id:XXXXX |' | \
notmuch_date_sanitize
}
notmuch_json_show_sanitize ()
{
sed \
-e 's|"id": "[^"]*",|"id": "XXXXX",|g' \
-e 's|"Date": "Fri, 05 Jan 2001 [^"]*0000"|"Date": "GENERATED_DATE"|g' \
-e 's|"filename": "signature.asc",||g' \
-e 's|"filename": "/[^"]*",|"filename": "YYYYY",|g' \
-e 's|"timestamp": 97.......|"timestamp": 42|g'
}
notmuch_emacs_error_sanitize ()
{
local command=$1
shift
for file in "$@"; do
echo "=== $file ==="
cat "$file"
done | sed \
-e 's/^\[.*\]$/[XXX]/' \
-e "s|^\(command: \)\{0,1\}/.*/$command|\1YYY/$command|"
}
notmuch_date_sanitize ()
{
sed \
-e 's/^Date: Fri, 05 Jan 2001 .*0000/Date: GENERATED_DATE/'
}
notmuch_uuid_sanitize ()
{
sed 's/[0-9a-f]\{8\}-[0-9a-f]\{4\}-[0-9a-f]\{4\}-[0-9a-f]\{4\}-[0-9a-f]\{12\}/UUID/g'
}
notmuch_built_with_sanitize ()
{
sed 's/^built_with[.]\(.*\)=.*$/built_with.\1=something/'
}
notmuch_config_sanitize ()
{
notmuch_dir_sanitize | notmuch_built_with_sanitize
}
# End of notmuch helper functions
# Use test_set_prereq to tell that a particular prerequisite is available.
# The prerequisite can later be checked for in two ways:
#
# - Explicitly using test_have_prereq.
#
# - Implicitly by specifying the prerequisite tag in the calls to
# test_expect_{success,failure,code}.
#
# The single parameter is the prerequisite tag (a simple word, in all
# capital letters by convention).
test_set_prereq () {
satisfied="$satisfied$1 "
}
satisfied=" "
test_have_prereq () {
case $satisfied in
*" $1 "*)
: yes, have it ;;
*)
! : nope ;;
esac
}
declare -A test_missing_external_prereq_
declare -A test_subtest_missing_external_prereq_
# declare prerequisite for the given external binary
test_declare_external_prereq () {
binary="$1"
test "$#" = 2 && name=$2 || name="$binary(1)"
if ! hash $binary 2>/dev/null; then
test_missing_external_prereq_["${binary}"]=t
eval "
$binary () {
test_subtest_missing_external_prereq_[\"${name}\"]=t
false
}"
fi
}
# Explicitly require external prerequisite. Useful when binary is
# called indirectly (e.g. from emacs).
# Returns success if dependency is available, failure otherwise.
test_require_external_prereq () {
binary="$1"
if [[ ${test_missing_external_prereq_["${binary}"]} == t ]]; then
# dependency is missing, call the replacement function to note it
eval "$binary"
else
true
fi
}
# You are not expected to call test_ok_ and test_failure_ directly, use
# the text_expect_* functions instead.
test_ok_ () {
if test "$test_subtest_known_broken_" = "t"; then
test_known_broken_ok_
return
fi
test_success=$(($test_success + 1))
if test -n "$NOTMUCH_TEST_QUIET"; then
return 0
fi
say_color pass "%-6s" "PASS"
echo " $test_subtest_name"
}
test_failure_ () {
if test "$test_subtest_known_broken_" = "t"; then
test_known_broken_failure_ "$@"
return
fi
test_failure=$(($test_failure + 1))
print_test_description
test_failure_message_ "FAIL" "$test_subtest_name" "$@"
test "$immediate" = "" || { GIT_EXIT_OK=t; exit 1; }
return 1
}
test_failure_message_ () {
say_color error "%-6s" "$1"
echo " $2"
shift 2
echo "$@" | sed -e 's/^/ /'
if test "$verbose" != "t"; then cat test.output; fi
}
test_known_broken_ok_ () {
test_reset_state_
test_fixed=$(($test_fixed+1))
say_color pass "%-6s" "FIXED"
echo " $test_subtest_name"
}
test_known_broken_failure_ () {
test_reset_state_
test_broken=$(($test_broken+1))
test_failure_message_ "BROKEN" "$test_subtest_name" "$@"
return 1
}
test_debug () {
test "$debug" = "" || eval "$1"
}
test_run_ () {
test_cleanup=:
if test "$verbose" != "t"; then exec 4>test.output 3>&4; fi
eval >&3 2>&4 "$1"
eval_ret=$?
eval >&3 2>&4 "$test_cleanup"
return 0
}
test_skip () {
test_count=$(($test_count+1))
to_skip=
for skp in $NOTMUCH_SKIP_TESTS
do
case $this_test.$test_count in
$skp)
to_skip=t
break
esac
case $this_test_bare.$test_count in
$skp)
to_skip=t
break
esac
done
if test -z "$to_skip" && test -n "$prereq" &&
! test_have_prereq "$prereq"
then
to_skip=t
fi
case "$to_skip" in
t)
test_report_skip_ "$@"
;;
*)
test_check_missing_external_prereqs_ "$@"
;;
esac
}
test_check_missing_external_prereqs_ () {
if [[ ${#test_subtest_missing_external_prereq_[@]} != 0 ]]; then
say_color skip >&1 "missing prerequisites: "
echo ${!test_subtest_missing_external_prereq_[@]} >&1
test_report_skip_ "$@"
else
false
fi
}
test_report_skip_ () {
test_reset_state_
say_color skip >&3 "skipping test:"
echo " $@" >&3
say_color skip "%-6s" "SKIP"
echo " $1"
}
test_subtest_known_broken () {
test_subtest_known_broken_=t
}
test_expect_success () {
test "$#" = 3 && { prereq=$1; shift; } || prereq=
test "$#" = 2 ||
error "bug in the test script: not 2 or 3 parameters to test-expect-success"
test_subtest_name="$1"
test_reset_state_
if ! test_skip "$@"
then
test_run_ "$2"
run_ret="$?"
# test_run_ may update missing external prerequisites
test_check_missing_external_prereqs_ "$@" ||
if [ "$run_ret" = 0 -a "$eval_ret" = 0 ]
then
test_ok_
else
test_failure_ "$2"
fi
fi
}
test_expect_code () {
test "$#" = 4 && { prereq=$1; shift; } || prereq=
test "$#" = 3 ||
error "bug in the test script: not 3 or 4 parameters to test-expect-code"
test_subtest_name="$2"
test_reset_state_
if ! test_skip "$@"
then
test_run_ "$3"
run_ret="$?"
# test_run_ may update missing external prerequisites,
test_check_missing_external_prereqs_ "$@" ||
if [ "$run_ret" = 0 -a "$eval_ret" = "$1" ]
then
test_ok_
else
test_failure_ "exit code $eval_ret, expected $1" "$3"
fi
fi
}
# test_external runs external test scripts that provide continuous
# test output about their progress, and succeeds/fails on
# zero/non-zero exit code. It outputs the test output on stdout even
# in non-verbose mode, and announces the external script with "* run
# <n>: ..." before running it. When providing relative paths, keep in
# mind that all scripts run in "trash directory".
# Usage: test_external description command arguments...
# Example: test_external 'Perl API' perl ../path/to/test.pl
test_external () {
test "$#" = 4 && { prereq=$1; shift; } || prereq=
test "$#" = 3 ||
error >&6 "bug in the test script: not 3 or 4 parameters to test_external"
test_subtest_name="$1"
shift
test_reset_state_
if ! test_skip "$test_subtest_name" "$@"
then
# Announce the script to reduce confusion about the
# test output that follows.
say_color "" " run $test_count: $descr ($*)"
# Run command; redirect its stderr to &4 as in
# test_run_, but keep its stdout on our stdout even in
# non-verbose mode.
"$@" 2>&4
if [ "$?" = 0 ]
then
test_ok_
else
test_failure_ "$@"
fi
fi
}
# Like test_external, but in addition tests that the command generated
# no output on stderr.
test_external_without_stderr () {
# The temporary file has no (and must have no) security
# implications.
tmp="$TMPDIR"; if [ -z "$tmp" ]; then tmp=/tmp; fi
stderr="$tmp/git-external-stderr.$$.tmp"
test_external "$@" 4> "$stderr"
[ -f "$stderr" ] || error "Internal error: $stderr disappeared."
test_subtest_name="no stderr: $1"
shift
if [ ! -s "$stderr" ]; then
rm "$stderr"
test_ok_
else
if [ "$verbose" = t ]; then
output=`echo; echo Stderr is:; cat "$stderr"`
else
output=
fi
# rm first in case test_failure exits.
rm "$stderr"
test_failure_ "$@" "$output"
fi
}
# This is not among top-level (test_expect_success)
# but is a prefix that can be used in the test script, like:
#
# test_expect_success 'complain and die' '
# do something &&
# do something else &&
# test_must_fail git checkout ../outerspace
# '
#
# Writing this as "! git checkout ../outerspace" is wrong, because
# the failure could be due to a segv. We want a controlled failure.
test_must_fail () {
"$@"
test $? -gt 0 -a $? -le 129 -o $? -gt 192
}
# test_cmp is a helper function to compare actual and expected output.
# You can use it like:
#
# test_expect_success 'foo works' '
# echo expected >expected &&
# foo >actual &&
# test_cmp expected actual
# '
#
# This could be written as either "cmp" or "diff -u", but:
# - cmp's output is not nearly as easy to read as diff -u
# - not all diff versions understand "-u"
test_cmp() {
$GIT_TEST_CMP "$@"
}
# This function can be used to schedule some commands to be run
# unconditionally at the end of the test to restore sanity:
#
# test_expect_success 'test core.capslock' '
# git config core.capslock true &&
# test_when_finished "git config --unset core.capslock" &&
# hello world
# '
#
# That would be roughly equivalent to
#
# test_expect_success 'test core.capslock' '
# git config core.capslock true &&
# hello world
# git config --unset core.capslock
# '
#
# except that the greeting and config --unset must both succeed for
# the test to pass.
test_when_finished () {
test_cleanup="{ $*
} && (exit \"\$eval_ret\"); eval_ret=\$?; $test_cleanup"
}
test_done () {
GIT_EXIT_OK=t
test_results_dir="$TEST_DIRECTORY/test-results"
mkdir -p "$test_results_dir"
test_results_path="$test_results_dir/$this_test"
echo "total $test_count" >> $test_results_path
echo "success $test_success" >> $test_results_path
echo "fixed $test_fixed" >> $test_results_path
echo "broken $test_broken" >> $test_results_path
echo "failed $test_failure" >> $test_results_path
echo "" >> $test_results_path
[ -n "$EMACS_SERVER" ] && test_emacs '(kill-emacs)'
if [ "$test_failure" = "0" ]; then
if [ "$test_broken" = "0" ]; then
rm -rf "$remove_tmp"
fi
exit 0
else
exit 1
fi
}
emacs_generate_script () {
# Construct a little test script here for the benefit of the user,
# (who can easily run "run_emacs" to get the same emacs environment
# for investigating any failures).
cat <<EOF >"$TMP_DIRECTORY/run_emacs"
#!/bin/sh
export PATH=$PATH
export NOTMUCH_CONFIG=$NOTMUCH_CONFIG
# Here's what we are using here:
#
# --quick Use minimal customization. This implies --no-init-file,
# --no-site-file and (emacs 24) --no-site-lisp
#
# --directory Ensure that the local elisp sources are found
#
# --load Force loading of notmuch.el and test-lib.el
exec ${TEST_EMACS} --quick \
--directory "$TEST_DIRECTORY/../emacs" --load notmuch.el \
--directory "$TEST_DIRECTORY" --load test-lib.el \
"\$@"
EOF
chmod a+x "$TMP_DIRECTORY/run_emacs"
}
test_emacs () {
# test dependencies beforehand to avoid the waiting loop below
missing_dependencies=
test_require_external_prereq dtach || missing_dependencies=1
test_require_external_prereq emacs || missing_dependencies=1
test: Make the emacsclient binary user-configurable And require that if TEST_EMACS is specified, so is TEST_EMACSCLIENT. Previously, the test framework always used "emacsclient", even if the Emacs in use was overridden by TEST_EMACS. This causes problems if both Emacs 23 and Emacs 24 are installed, the Emacs 23 emacsclient is the system default, but TEST_EMACS is set to emacs24. Specifically, with an Emacs 24 server and an Emacs 23 client, emacs tests that run very quickly may produce no output from emacsclient, causing the test to fail. The Emacs server uses a very simple line-oriented protocol in which the client sends a request to evaluate an expression and the server sends a request to print the result of evaluation. Prior to Emacs bzr commit 107565 on March 11th, 2012 (released in Emacs 24.1), if multiple commands were sent to the emacsclient between when it sent the evaluation command and when it entered its receive loop, it would only process the first response command, ignoring the rest of the received buffer. This wasn't a problem with the Emacs 23 server because it sent only the command to print the evaluation result. However, the Emacs 24 server first sends an unprompted command specifying the PID of the Emacs server, then processes the evaluation request, then sends the command to print the result. If the evaluation is fast enough, it can send both of these commands before emacsclient enters the receive loop. Hence, if an Emacs 24 server is used with an Emacs 23 emacsclient, it may miss the response printing command, ultimately causing intermittent notmuch test failures.
2012-11-28 04:24:59 +01:00
test_require_external_prereq ${TEST_EMACSCLIENT} || missing_dependencies=1
test -z "$missing_dependencies" || return
if [ -z "$EMACS_SERVER" ]; then
emacs_tests="${this_test_bare}.el"
if [ -f "$TEST_DIRECTORY/$emacs_tests" ]; then
load_emacs_tests="--eval '(load \"$emacs_tests\")'"
else
load_emacs_tests=
fi
server_name="notmuch-test-suite-$$"
# start a detached session with an emacs server
# user's TERM (or 'vt100' in case user's TERM is unset, empty
# or 'dumb') is given to dtach which assumes a minimally
# VT100-compatible terminal -- and emacs inherits that
TERM=$DTACH_TERM dtach -n "$TEST_TMPDIR/emacs-dtach-socket.$$" \
sh -c "stty rows 24 cols 80; exec '$TMP_DIRECTORY/run_emacs' \
--no-window-system \
$load_emacs_tests \
--eval '(setq server-name \"$server_name\")' \
--eval '(server-start)' \
--eval '(orphan-watchdog $$)'" || return
EMACS_SERVER="$server_name"
# wait until the emacs server is up
until test_emacs '()' >/dev/null 2>/dev/null; do
sleep 1
done
fi
# Clear test-output output file. Most Emacs tests end with a
# call to (test-output). If the test code fails with an
# exception before this call, the output file won't get
# updated. Since we don't want to compare against an output
# file from another test, so start out with an empty file.
rm -f OUTPUT
touch OUTPUT
${TEST_EMACSCLIENT} --socket-name="$EMACS_SERVER" --eval "(notmuch-test-progn $@)"
}
test_python() {
export LD_LIBRARY_PATH=$TEST_DIRECTORY/../lib
export PYTHONPATH=$TEST_DIRECTORY/../bindings/python
(echo "import sys; _orig_stdout=sys.stdout; sys.stdout=open('OUTPUT', 'w')"; cat) \
| $NOTMUCH_PYTHON -
}
test_ruby() {
export LD_LIBRARY_PATH=$TEST_DIRECTORY/../lib
MAIL_DIR=$MAIL_DIR ruby -I $TEST_DIRECTORY/../bindings/ruby> OUTPUT
}
test_C () {
exec_file="test${test_count}"
test_file="${exec_file}.c"
cat > ${test_file}
export LD_LIBRARY_PATH=${TEST_DIRECTORY}/../lib
${TEST_CC} ${TEST_CFLAGS} -I${TEST_DIRECTORY}/../lib -o ${exec_file} ${test_file} -L${TEST_DIRECTORY}/../lib/ -lnotmuch -ltalloc
echo "== stdout ==" > OUTPUT.stdout
echo "== stderr ==" > OUTPUT.stderr
./${exec_file} "$@" 1>>OUTPUT.stdout 2>>OUTPUT.stderr
notmuch_dir_sanitize OUTPUT.stdout OUTPUT.stderr > OUTPUT
}
# Creates a script that counts how much time it is executed and calls
# notmuch. $notmuch_counter_command is set to the path to the
# generated script. Use notmuch_counter_value() function to get the
# current counter value.
notmuch_counter_reset () {
notmuch_counter_command="$TMP_DIRECTORY/notmuch_counter"
if [ ! -x "$notmuch_counter_command" ]; then
notmuch_counter_state_path="$TMP_DIRECTORY/notmuch_counter.state"
cat >"$notmuch_counter_command" <<EOF || return
#!/bin/sh
read count < "$notmuch_counter_state_path"
echo \$((count + 1)) > "$notmuch_counter_state_path"
exec notmuch "\$@"
EOF
chmod +x "$notmuch_counter_command" || return
fi
echo 0 > "$notmuch_counter_state_path"
}
# Returns the current notmuch counter value.
notmuch_counter_value () {
if [ -r "$notmuch_counter_state_path" ]; then
read count < "$notmuch_counter_state_path"
else
count=0
fi
echo $count
}
test_reset_state_ () {
test -z "$test_init_done_" && test_init_
test_subtest_known_broken_=
test_subtest_missing_external_prereq_=()
}
# called once before the first subtest
test_init_ () {
test_init_done_=t
# skip all tests if there were external prerequisites missing during init
test_check_missing_external_prereqs_ "all tests in $this_test" && test_done
}
. ./test-lib-common.sh || exit 1
emacs_generate_script
# Use -P to resolve symlinks in our working directory so that the cwd
# in subprocesses like git equals our $PWD (for pathname comparisons).
cd -P "$test" || error "Cannot set up test environment"
if test "$verbose" = "t"
then
exec 4>&2 3>&1
else
exec 4>test.output 3>&4
fi
for skp in $NOTMUCH_SKIP_TESTS
do
to_skip=
for skp in $NOTMUCH_SKIP_TESTS
do
case "$this_test" in
$skp)
to_skip=t
break
esac
case "$this_test_bare" in
$skp)
to_skip=t
break
esac
done
case "$to_skip" in
t)
say_color skip >&3 "skipping test $this_test altogether"
say_color skip "skip all tests in $this_test"
test_done
esac
done
# Provide an implementation of the 'yes' utility
yes () {
if test $# = 0
then
y=y
else
y="$*"
fi
while echo "$y"
do
:
done
}
# Fix some commands on Windows
case $(uname -s) in
*MINGW*)
# Windows has its own (incompatible) sort and find
sort () {
/usr/bin/sort "$@"
}
find () {
/usr/bin/find "$@"
}
sum () {
md5sum "$@"
}
# git sees Windows-style pwd
pwd () {
builtin pwd -W
}
# no POSIX permissions
# backslashes in pathspec are converted to '/'
# exec does not inherit the PID
;;
*)
test_set_prereq POSIXPERM
test_set_prereq BSLASHPSPEC
test_set_prereq EXECKEEPSPID
;;
esac
test -z "$NO_PERL" && test_set_prereq PERL
test -z "$NO_PYTHON" && test_set_prereq PYTHON
# test whether the filesystem supports symbolic links
ln -s x y 2>/dev/null && test -h y 2>/dev/null && test_set_prereq SYMLINKS
rm -f y
# convert variable from configure to more convenient form
case "$NOTMUCH_DEFAULT_XAPIAN_BACKEND" in
glass)
db_ending=glass
;;
chert)
db_ending=DB
;;
*)
error "Unknown Xapian backend $NOTMUCH_DEFAULT_XAPIAN_BACKEND"
esac
# declare prerequisites for external binaries used in tests
test_declare_external_prereq dtach
test_declare_external_prereq emacs
test: Make the emacsclient binary user-configurable And require that if TEST_EMACS is specified, so is TEST_EMACSCLIENT. Previously, the test framework always used "emacsclient", even if the Emacs in use was overridden by TEST_EMACS. This causes problems if both Emacs 23 and Emacs 24 are installed, the Emacs 23 emacsclient is the system default, but TEST_EMACS is set to emacs24. Specifically, with an Emacs 24 server and an Emacs 23 client, emacs tests that run very quickly may produce no output from emacsclient, causing the test to fail. The Emacs server uses a very simple line-oriented protocol in which the client sends a request to evaluate an expression and the server sends a request to print the result of evaluation. Prior to Emacs bzr commit 107565 on March 11th, 2012 (released in Emacs 24.1), if multiple commands were sent to the emacsclient between when it sent the evaluation command and when it entered its receive loop, it would only process the first response command, ignoring the rest of the received buffer. This wasn't a problem with the Emacs 23 server because it sent only the command to print the evaluation result. However, the Emacs 24 server first sends an unprompted command specifying the PID of the Emacs server, then processes the evaluation request, then sends the command to print the result. If the evaluation is fast enough, it can send both of these commands before emacsclient enters the receive loop. Hence, if an Emacs 24 server is used with an Emacs 23 emacsclient, it may miss the response printing command, ultimately causing intermittent notmuch test failures.
2012-11-28 04:24:59 +01:00
test_declare_external_prereq ${TEST_EMACSCLIENT}
test_declare_external_prereq gdb
test_declare_external_prereq gpg
test_declare_external_prereq openssl
test_declare_external_prereq gpgsm
test_declare_external_prereq ${NOTMUCH_PYTHON}